Therapeutic effect of Agaricus brasiliensis on phenylhydrazine-induced neonatal jaundice in rats.

The present study was designed to investigate the effect of Agaricus brasiliensis extract (ABE) on phenylhydrazine-induced neonatal jaundice in rats. Administration of ABE dose-dependently reduced the elevated bilirubin level induced by phenylhydrazine. It can be somewhat supported from the results of in vitro bilirubin degradation experiment. ABE treatment also reduced the total antioxidant status (TAOS), cascade O2(-)/SOD, level of NF-κB protein, and adrenomedullin (AM). Overall, the results of this study demonstrated that Agaricus brasiliensis extract may be beneficial to reducing bilirubin level without causing hepatotoxicity in neonatal jaundice.

Impact of metformin treatment and swimming exercise on visfatin levels in high-fat-induced obesity rats.

OBJECTIVE: Visfatin is a recently discovered adipocytokine that contributes to glucose and obesity-related conditions. Until now, its responses to the insulin-sensitizing agent metformin and to exercise are largely unknown. We aim to investigate the impact of metformin treatment and/or swimming exercise on serum visfatin and visfatin levels in subcutaneous adipose tissue (SAT), peri-renal adipose tissue (PAT) and skeletal muscle (SM) of high-fat-induced obesity rats. MATERIALS AND METHODS: Sprague-Dawley rats were fed a normal diet or a high-fat diet for 16 weeks to develop obesity model. The high-fat-induced obesity model rats were then randomized to metformin (MET), swimming exercise (SWI), or adjunctive therapy of metformin and swimming exercise (MAS), besides high-fat obesity control group and a normal control group, all with 10 rats per group. Zoometric and glycemic parameters, lipid profile, and serum visfatin levels were assessed at baseline and after 6 weeks of therapy. Visfatin levels in SAT, PAT and SM were determined by Western Blot. RESULTS: Metformin and swimming exercise improved lipid profile, and increased insulin sensitivity and body weight reduction were observed. Both metformin and swimming exercise down-regulated visfatin levels in SAT and PAT, while the adjunctive therapy conferred greater benefits, but no changes of visfatin levels were observed in SM. CONCLUSION: Our results indicate that visfatin down-regulation in SAT and PAT may be one of the mechanisms by which metformin and swimming exercise inhibit obesity.

Impact of metformin treatment and swimming exercise on visfatin levels in high-fat-induced obesity rats / Impacto do tratamento com metformina e da natação nos níveis de visfatina em ratos com obesidade induzida por dieta com alto teor de gordura

Objective : Visfatin is a recently discovered adipocytokine that contributes to glucose and obesity-related conditions. Until now, its responses to the insulin-sensitizing agent metformin and to exercise are largely unknown. We aim to investigate the impact of metformin treatment and/or swimming exercise on serum visfatin and visfatin levels in subcutaneous adipose tissue (SAT), peri-renal adipose tissue (PAT) and skeletal muscle (SM) of high-fat-induced obesity rats. Materials and methods : Sprague-Dawley rats were fed a normal diet or a high-fat diet for 16 weeks to develop obesity model. The high-fat-induced obesity model rats were then randomized to metformin (MET), swimming exercise (SWI), or adjunctive therapy of metformin and swimming exercise (MAS), besides high-fat obesity control group and a normal control group, all with 10 rats per group. Zoometric and glycemic parameters, lipid profile, and serum visfatin levels were assessed at baseline and after 6 weeks of therapy. Visfatin levels in SAT, PAT and SM were determined by Western Blot. Results : Metformin and swimming exercise improved lipid profile, and increased insulin sensitivity and body weight reduction were observed. Both metformin and swimming exercise down-regulated visfatin levels in SAT and PAT, while the adjunctive therapy conferred greater benefits, but no changes of visfatin levels were observed in SM. Conclusion : Our results indicate that visfatin down-regulation in SAT and PAT may be one of the mechanisms by which metformin and swimming exercise inhibit obesity. .

Objetivo : A visfatina é uma adipocina recentemente descoberta que contribui com as condições relacionadas à glicose e à obesidade. Até hoje, pouco se sabe da sua resposta à metformina, um agente sensibilizador de insulina, e ao exercício. Nosso objetivo foi investigar o impacto do tratamento com metformina e/ou da natação sobre a visfatina no soro e no tecido adiposo subcutâneo (TAS), tecido adiposo perirrenal (TAP) e músculo esquelético (ME) em ratos com obesidade induzida por dieta com alto teor de gordura. Materiais e métodos : Ratos Sprague-Dawley foram alimentados com uma dieta normal ou com alto teor de gordura por 16 semanas para o desenvolvimento de um modelo de obesidade. Os ratos do modelo de obesidade foram, então, randomizados para a metformina, natação ou terapia de combinação com metformina e natação, além do grupo controle de obesidade induzida por alto teor de gordura e do grupo controle normal. Cada grupo apresentava 10 ratos. Parâmetros zoométricos e glicêmicos, perfil lipídico e níveis de visfatina sérica foram avaliados no momento inicial e após seis semanas de tratamento. Os níveis de visfatina em TAS, TAP e ME foram determinados por Western Blot. Resultados : A metformina e a natação melhoraram o perfil lipídico e aumentaram a sensibilidade à insulina, com redução do peso corporal. Tanto a metformina quanto a natação levaram à regulação para baixo dos níveis de visfatina no TAS e TAP, enquanto a terapia de combinação apresentou os maiores benefícios, mas não foram observadas alterações nos níveis de visfatina no ME. Conclusão : Nossos resultados indicam que a regulação para baixo da visfatina no TAS e TAP pode ser um dos mecanismos pelos quais a metformina ...